Dobot Atom Max vs Mindar
Side-by-side comparison of Dobot Atom Max (Shenzhen Yuejiang Technology Co., Ltd.) and Mindar (Unknown) — specs, pricing, Robolist Trust Score, and verified deployments. Updated daily.
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Optimized for Cleaning & Facilities buyers. Priority specs lifted to the top and marked with a target.
Layer 1: Identity & Trust
Manufacturer Country
Dobot Atom MaxCN
Mindar—
Year First Available
- Dobot Atom Max—
- Mindar2019
Verified Deployments
- Dobot Atom Max0 Deployments
- Mindar0 Deployments
Layer 2: Operational
Price Range (USD)
- Dobot Atom Max$84,499
- Mindar$909,090
Battery / Shift Runtime
- Dobot Atom Max2 hrs
- Mindar48 hrs
Availability Status
- Dobot Atom MaxACTIVE
- MindarACTIVE
Physical Form Factor
Weight
- Dobot Atom Max62 kg
- Mindar57 kg
Height
- Dobot Atom Max1650 mm
- Mindar28 cm
Walking Speed
- Dobot Atom Max1.5 m/s
- Mindar—
Terrain
- Dobot Atom Maxindoor
- Mindarindoor
Payload & Dexterity
Payload
- Dobot Atom Max3.5 kg
- Mindar100 kg
Total DOF
- Dobot Atom Max41
- Mindar—
Arm DOF
- Dobot Atom Max7
- Mindar—
Hand DOF
- Dobot Atom Max12
- Mindar—
Compute & AI
Onboard Compute
- Dobot Atom Maxup to 7.7× industry-standard performance
- MindarIntel® Core™ Ultra X9 388H processor
Programming
- Dobot Atom MaxROS-compatible interfaces
- Mindar—
Battery & Power
Runtime
- Dobot Atom Max2 hrs
- Mindar48 hrs
Software
SDK Languages
- Dobot Atom MaxROS-compatible interfaces
- Mindar—
ROS Support
- Dobot Atom MaxYes
- Mindar—
Open API
- Dobot Atom MaxYes
- Mindar—
Reliability
IP Rating
- Dobot Atom MaxIP20
- Mindar—
Commercial
Price (USD)
- Dobot Atom Max$84,499
- Mindar$909,090
Price Tier
- Dobot Atom Max80-150K
- Mindar¥100 million (US$909,090) total project cost
Pricing Model
- Dobot Atom Max—
- Mindarpurchase
Warranty
- Dobot Atom Max1 yrs
- Mindar—
Applications
- Dobot Atom Maxrobotics research, industrial automation, teleoperation, AI-driven applications
- Mindarreligious service, cultural education
| Dobot Atom MaxhumanoidShenzhen Yuejiang Technology Co., Ltd. 52.4Trust Score | MindarhumanoidUnknown 55.8Trust Score | |
|---|---|---|
| Layer 1: Identity & Trust | ||
| Manufacturer Country (values differ) | CN | — |
| Year First Available (values differ) | — | 2019 |
| Verified Deployments | 0 Deployments | 0 Deployments |
| Layer 2: Operational | ||
| Price Range (USD) (values differ) | $84,499 | $909,090 |
| Battery / Shift Runtime (priority for Cleaning & Facilities buyers) (values differ) | 2 hrs | 48 hrs |
| Availability Status | ACTIVE | ACTIVE |
| Layer 3: Category Specific | ||
| Physical Form Factor | ||
| Weight (priority for Cleaning & Facilities buyers) (values differ) | 62 kg | 57 kg |
| Height (values differ) | 1650 mm | 28 cm |
| Walking Speed (values differ) | 1.5 m/s | — |
| Terrain | indoor | indoor |
| Payload & Dexterity | ||
| Payload (values differ) | 3.5 kg | 100 kg |
| Total DOF (values differ) | 41 | — |
| Arm DOF (values differ) | 7 | — |
| Hand DOF (values differ) | 12 | — |
| Compute & AI | ||
| Onboard Compute (values differ) | up to 7.7× industry-standard performance | Intel® Core™ Ultra X9 388H processor |
| Programming (values differ) | ROS-compatible interfaces | — |
| Battery & Power | ||
| Runtime (values differ) | 2 hrs | 48 hrs |
| Software | ||
| SDK Languages (values differ) | ROS-compatible interfaces | — |
| ROS Support (values differ) | Yes | — |
| Open API (values differ) | Yes | — |
| Reliability | ||
| IP Rating (values differ) | IP20 | — |
| Commercial | ||
| Price (USD) (values differ) | $84,499 | $909,090 |
| Price Tier (values differ) | 80-150K | ¥100 million (US$909,090) total project cost |
| Pricing Model (values differ) | — | purchase |
| Warranty (values differ) | 1 yrs | — |
| Applications (values differ) | robotics research, industrial automation, teleoperation, AI-driven applications | religious service, cultural education |
Insufficient data for full comparison
The following fields had no data for any of the selected robots: Mobility Type, Humanoid Subtype, Running Capable, Stair Climbing, Payload (Peak), Arm Reach, Grip Strength, Manipulation Repeatability, Bimanual Coordination, Tool Use, Compute Platform, VLM Capable, Foundation Models, Imitation Learning, Teleoperation, Battery Capacity, Charging Time, Charging Method, Battery Swap, Avg Power Consumption, Force-Limited Arms, Fall Recovery, Fall Detection Response, Emergency Stops, Human Detection Method, Safe Speed Near Humans, Simulation Platforms, Air-Gap Capable, MTBF, Task Success Rate, Deployment Maturity, Noise Level, RaaS / Month, Developer Unit Price, Delivery Lead Time, Production Pilots
Trade-offs at a glance
About this comparison
Dobot Atom Max vs Mindar compares two robots in the humanoid category. All data is sourced from manufacturer spec sheets, verified deployments, and third-party filings; see our methodology for how the Robolist Trust Score is calculated.